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010 a| 2017964759;

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016 7 a| 0186452232| Uk;

020 a| 9780128142684q| (paperback);

020 a| 0128142685q| (paperback);

020 z| 9780128142691 (ePub ebook);

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050 00 a| QD921b| .F26 2018;

082 04 a| 548/.32| 23;

100 1 a| Fang, Tsang-Tse,d| 1955-?| UNAUTHORIZED;

245 10 a| Elements of structures and defects of crystalline materialsh| [electronic resource] /c| Tsang-Tse Fang (National Cheng Kung University).;

260 a| Amsterdam, The Netherlands ;a| Cambridge, MA, United States :b| Elsevier,c| [2018];

300 a| xiii, 207 pages :b| illustrations ;c| 23 cm;

504 a| Includes bibliographical references.;

505 00 a| Machine generated contents note:g| pt. It| Structures of the Crystalline Materials --g| 1.t| The Electron Configuration of Atoms --g| 1.1.t| Atoms With a Single Electron --g| 1.2.t| Atoms With More Than One Electron --g| 1.2.1.t| Penetration and Shielding --g| 1.2.2.t| Energetic d-Orbital Collapse of Free Neutral Atoms at the Beginning of the Transition Rows --g| 2.t| Bonding Within Crystal Structures --g| 2.1.t| Bonding in Ionic Crystals --g| 2.1.1.t| Energy for Forming the Ions From Neutral Atoms --g| 2.1.2.t| Thermodynamic Viewpoint of Bond Energy --g| 2.2.t| Covalent Bonds --g| 2.2.1.t| Formation Energy and Mechanism of Covalent Bonding --g| 2.3.t| Metallic Bonds --g| 2.3.1.t| Cohesive Energy of Metals --g| 2.4.t| Effect of Bonding on the Material Properties by Means of the Potential-Well Concept --g| 2.4.1.t| Elastic Modulus --g| 2.4.2.t| Melting Temperatures --g| 2.4.3.t| Thermal Property --g| 3.t| The Structures of Crystalline Crystals --g| 3.1.t| Arrangements of Atoms and Ions in Crystalline Solids: Space Lattice --g| 3.2.t| Metallic Structures --g| 3.3.t| Ionic Structures --g| 3.3.1.t| Pauling's Rules --g| 3.4.t| Structural Distortion in Ionic Structures --g| 3.4.1.t| Effects of Crystal Field on the Structures of the Oxides --g| 3.4.2.t| Crystal Field Stabilization Energy --g| 3.4.3.t| Effects of the d Electron Configuration on the Radii of Transition Metal Ions --g| 3.4.4.t| Jahn -- Teller Distortions --g| 3.4.5.t| Structure Distortions Arising From Asymmetric Electron Density or Inert Pair Effect --g| 3.5.t| Structure of Material Technological Interest --g| 3.5.1.t| Structure and the Related Feature of ZnO --g| 3.5.2.t| Structure and the Related Feature of SiC --g| 3.5.3.t| Structure and the Related Feature of TiO2 --g| 3.5.4.t| Structure and the Related Feature of ZrO2 --g| 3.5.5.t| Structure and the Related Feature of Spinel (AB2O4) --g| 3.5.6.t| Structure and the Related Feature of Perovskite ABO3 --g| pt. IIt| Defects of Crystalline Materials --g| 4.t| Point Defects in Crystalline Materials --g| 4.1.t| Point Defects in Metals --g| 4.1.1.t| Solid Solutions --g| 4.1.2.t| Factors Affecting the Solubility of Impurity Atoms in a Substitutional Solid Solution --g| 4.1.3.t| Factors Affecting the Solubility of the Impurity Atoms in an Interstitial Solid Solution --g| 4.1.4.t| Equilibrium Concentration of Point Defects --g| 4.2.t| Point Defects in Ionic Solids --g| 4.2.1.t| Notation for the Description of Point Defects in Binary Metal Oxides --g| 4.2.2.t| Defect Structures in Stoichiometric Ionic Crystals --g| 4.2.3.t| Defect Structures in Nonstoichiometric Ionic Crystals --g| 4.2.4.t| Defect Reactions --g| 4.2.5.t| Formulation of Defect Equations --g| 4.2.6.t| Defect Equilibrium in Ionic Solids --g| 4.2.7.t| Defect Association --g| 5.t| Line Defects in Crystalline Solids --g| 5.1.t| The Discrepancy Between the Theoretical and Observed Yield Stresses of Crystals --g| 5.2.t| Observations of Dislocations --g| 5.3.t| Crystallographic Slip --g| 5.4.t| Elementary Geometric Characteristics of Dislocations --g| 5.4.1.t| The Edge Dislocation --g| 5.4.2.t| The Screw Dislocation --g| 5.4.3.t| The Mixed Dislocation --g| 5.5.t| Critical Resolved Shear Stress --g| 5.6.t| Plastic Flow Associated With the Slip of the Dislocation Motion --g| 5.7.t| Stress Fields of Dislocations --g| 5.7.1.t| Constitutive Equations With Lame Constants --g| 5.7.2.t| Stress Field of a Screw Dislocation --g| 5.7.3.t| Stress Fields of an Edge Dislocation --g| 5.8.t| Energy of a Dislocation --g| 5.8.1.t| Strain Energy of a Screw Dislocation --g| 5.8.2.t| Strain Energy of an Edge Dislocation --g| 5.9.t| Line Tension of a Dislocation --g| 5.10.t| Forces Upon Dislocations --g| 5.11.t| The Bowing of a Dislocation --g| 5.12.t| Force Between Dislocations --g| 5.13.t| Peach-Koehler Equation --g| 5.14.t| Reactions Between Dislocations --g| 5.14.1.t| Dislocation Nodes --g| 5.14.2.t| Kinks and Jogs --g| 5.14.3.t| Intersections of Dislocations --g| 5.15.t| Extended Dislocations --g| 5.15.1.t| Partial Dislocations --g| 5.15.2.t| Faults in the Stacking in FCC Crystals --g| 5.15.3.t| Equilibrium Separation Between Partial Dislocations --g| 6.t| Two-Dimensional (Interfaces) and Three-Dimensional (Second Phases) Imperfections in Solids --g| 6.1.t| Grain Boundaries --g| 6.1.1.t| Tilt Boundary --g| 6.1.2.t| Twist Boundary --g| 6.1.3.t| Coincidence Site Lattice --g| 6.2.t| Interphase Boundaries in Solids --g| 6.2.1.t| Coherent Boundary --g| 6.2.2.t| Incoherent Boundary --g| 6.2.3.t| Partially Coherent or Semicoherent Boundary --g| 6.3.t| Surface Tension, Surface Stress, and Surface Free Energy of Interfaces --g| 6.4.t| Free Surface --g| 6.4.1.t| Calculate the Surface Free Energy of a Pure Solid FCC Metal --g| 6.5.t| Interfaces of Phases --g| 6.5.1.t| Wetting --g| 6.5.2.t| Equilibrium Shapes of Grains --g| 6.5.3.t| Morphological Changes of Second Phases --g| 6.6.t| Effect of Interface Curvature on the Equilibrium Pressure Between Two Phases --g| 6.7.t| Effect of the Interface Curvature on the Equilibrium Solubility Between Two Phases --g| 6.8.t| Equilibrium Vacancy Concentration Changes at Curved Surfaces: Driving Force for Sintering.;

505 0 a| Pt. 1. Structure of the crystalline materials -- The electron configuration of atoms -- Bonding within crystal structures -- The structures of crystalline crystals -- Part II. Defects of Crystalline Materials -- Point defects in crystalline materials -- Line defects in crystalline solids -- Two-dimensional (interfaces) and three-dimensional (second phases) imperfections in solids.;

506 a| Available only to authorized users.;

538 a| Mode of access: World Wide Web;

650 0 a| Crystalsx| Structure.=| ^A24738;

650 0 a| Crystalsx| Defects.=| ^A41975;

650 7 a| Crystalsx| Defects.2| fast0| (OCoLC)fst00884675;

650 7 a| Crystalsx| Structure.2| fast0| (OCoLC)fst00884694;

655 0 a| Electronic books.=| ^A491897;

776 08 i| ebook version :z| 9780128142691;

856 40 z| Full text available from eBook - Materials Science 2018u| https://go.openathens.net/redirector/ecu.edu?url=https%3A%2F%2Fwww.sciencedirect.com%2Fscience%2Fbook%2F9780128142684;

947 a| (OCoLC)ocn991643042;

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999 a| CLICK ON WEB ADDRESSw| ASISc| 1i| 5861453-2001l| HSLELECm| HSLr| Ys| Yt| HEBKu| 7/17/2022x| EBOOKz| HERESOURCE;

999 a| CLICK ON WEB ADDRESSw| ASISc| 1i| 5861453-3001l| MNETm| JMUSICr| Ys| Yt| MNESSBKu| 7/17/2022x| EBOOKz| JERESOURCE;

Elements of structures and defects of crystalline materials / Tsang-Tse Fang (National Cheng Kung University).

Author/creator	Fang, Tsang-Tse, 1955-
Format	Electronic
Publication Info	Amsterdam, The Netherlands ; Cambridge, MA, United States : Elsevier, [2018]
Description	xiii, 207 pages : illustrations ; 23 cm
Supplemental Content	Full text available from eBook - Materials Science 2018
Subjects	Crystals--Structure. Crystals--Defects.

Contents	Machine generated contents note: pt. I Structures of the Crystalline Materials -- 1. The Electron Configuration of Atoms -- 1.1. Atoms With a Single Electron -- 1.2. Atoms With More Than One Electron -- 1.2.1. Penetration and Shielding -- 1.2.2. Energetic d-Orbital Collapse of Free Neutral Atoms at the Beginning of the Transition Rows -- 2. Bonding Within Crystal Structures -- 2.1. Bonding in Ionic Crystals -- 2.1.1. Energy for Forming the Ions From Neutral Atoms -- 2.1.2. Thermodynamic Viewpoint of Bond Energy -- 2.2. Covalent Bonds -- 2.2.1. Formation Energy and Mechanism of Covalent Bonding -- 2.3. Metallic Bonds -- 2.3.1. Cohesive Energy of Metals -- 2.4. Effect of Bonding on the Material Properties by Means of the Potential-Well Concept -- 2.4.1. Elastic Modulus -- 2.4.2. Melting Temperatures -- 2.4.3. Thermal Property -- 3. The Structures of Crystalline Crystals -- 3.1. Arrangements of Atoms and Ions in Crystalline Solids: Space Lattice -- 3.2. Metallic Structures -- 3.3. Ionic Structures -- 3.3.1. Pauling's Rules -- 3.4. Structural Distortion in Ionic Structures -- 3.4.1. Effects of Crystal Field on the Structures of the Oxides -- 3.4.2. Crystal Field Stabilization Energy -- 3.4.3. Effects of the d Electron Configuration on the Radii of Transition Metal Ions -- 3.4.4. Jahn -- Teller Distortions -- 3.4.5. Structure Distortions Arising From Asymmetric Electron Density or Inert Pair Effect -- 3.5. Structure of Material Technological Interest -- 3.5.1. Structure and the Related Feature of ZnO -- 3.5.2. Structure and the Related Feature of SiC -- 3.5.3. Structure and the Related Feature of TiO2 -- 3.5.4. Structure and the Related Feature of ZrO2 -- 3.5.5. Structure and the Related Feature of Spinel (AB2O4) -- 3.5.6. Structure and the Related Feature of Perovskite ABO3 -- pt. II Defects of Crystalline Materials -- 4. Point Defects in Crystalline Materials -- 4.1. Point Defects in Metals -- 4.1.1. Solid Solutions -- 4.1.2. Factors Affecting the Solubility of Impurity Atoms in a Substitutional Solid Solution -- 4.1.3. Factors Affecting the Solubility of the Impurity Atoms in an Interstitial Solid Solution -- 4.1.4. Equilibrium Concentration of Point Defects -- 4.2. Point Defects in Ionic Solids -- 4.2.1. Notation for the Description of Point Defects in Binary Metal Oxides -- 4.2.2. Defect Structures in Stoichiometric Ionic Crystals -- 4.2.3. Defect Structures in Nonstoichiometric Ionic Crystals -- 4.2.4. Defect Reactions -- 4.2.5. Formulation of Defect Equations -- 4.2.6. Defect Equilibrium in Ionic Solids -- 4.2.7. Defect Association -- 5. Line Defects in Crystalline Solids -- 5.1. The Discrepancy Between the Theoretical and Observed Yield Stresses of Crystals -- 5.2. Observations of Dislocations -- 5.3. Crystallographic Slip -- 5.4. Elementary Geometric Characteristics of Dislocations -- 5.4.1. The Edge Dislocation -- 5.4.2. The Screw Dislocation -- 5.4.3. The Mixed Dislocation -- 5.5. Critical Resolved Shear Stress -- 5.6. Plastic Flow Associated With the Slip of the Dislocation Motion -- 5.7. Stress Fields of Dislocations -- 5.7.1. Constitutive Equations With Lame Constants -- 5.7.2. Stress Field of a Screw Dislocation -- 5.7.3. Stress Fields of an Edge Dislocation -- 5.8. Energy of a Dislocation -- 5.8.1. Strain Energy of a Screw Dislocation -- 5.8.2. Strain Energy of an Edge Dislocation -- 5.9. Line Tension of a Dislocation -- 5.10. Forces Upon Dislocations -- 5.11. The Bowing of a Dislocation -- 5.12. Force Between Dislocations -- 5.13. Peach-Koehler Equation -- 5.14. Reactions Between Dislocations -- 5.14.1. Dislocation Nodes -- 5.14.2. Kinks and Jogs -- 5.14.3. Intersections of Dislocations -- 5.15. Extended Dislocations -- 5.15.1. Partial Dislocations -- 5.15.2. Faults in the Stacking in FCC Crystals -- 5.15.3. Equilibrium Separation Between Partial Dislocations -- 6. Two-Dimensional (Interfaces) and Three-Dimensional (Second Phases) Imperfections in Solids -- 6.1. Grain Boundaries -- 6.1.1. Tilt Boundary -- 6.1.2. Twist Boundary -- 6.1.3. Coincidence Site Lattice -- 6.2. Interphase Boundaries in Solids -- 6.2.1. Coherent Boundary -- 6.2.2. Incoherent Boundary -- 6.2.3. Partially Coherent or Semicoherent Boundary -- 6.3. Surface Tension, Surface Stress, and Surface Free Energy of Interfaces -- 6.4. Free Surface -- 6.4.1. Calculate the Surface Free Energy of a Pure Solid FCC Metal -- 6.5. Interfaces of Phases -- 6.5.1. Wetting -- 6.5.2. Equilibrium Shapes of Grains -- 6.5.3. Morphological Changes of Second Phases -- 6.6. Effect of Interface Curvature on the Equilibrium Pressure Between Two Phases -- 6.7. Effect of the Interface Curvature on the Equilibrium Solubility Between Two Phases -- 6.8. Equilibrium Vacancy Concentration Changes at Curved Surfaces: Driving Force for Sintering.
Contents	Pt. 1. Structure of the crystalline materials -- The electron configuration of atoms -- Bonding within crystal structures -- The structures of crystalline crystals -- Part II. Defects of Crystalline Materials -- Point defects in crystalline materials -- Line defects in crystalline solids -- Two-dimensional (interfaces) and three-dimensional (second phases) imperfections in solids.
Bibliography note	Includes bibliographical references.
Access restriction	Available only to authorized users.
Technical details	Mode of access: World Wide Web
Issued in other form	ebook version : 9780128142691
Genre/form	Electronic books.
LCCN	2017964759
ISBN	9780128142684 (paperback)
ISBN	0128142685 (paperback)

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